Over the past few weeks, I have read many lagging explanations on the chip shortage – too many fabless semiconductor companies, too few foundries, automobile manufacturers paused ordering in March and didn’t prepare for the sharp rebound, tensions with China, and even a fire at the Asahi Kasei plant that specifically manufactures sensing devices for the automobile industry.
While all of these are true, the overarching issue is that the role of semiconductors has changed from a commodity to the primary accelerant of future technologies. This is because connectivity, automation, and ultimately AI, will disrupt every corner of every industry.
We saw this happen with data and cloud but now we must accelerate this to the next level for AI/ML and the common denominator is semiconductors. Automotive is only the beginning. We can add renewables to the list and even e-commerce as AR/VR and AI/ML attempt to prop up the leaders who are competitive enough to add these features first.
As a tech stock analyst, I don’t have the luxury of lagging analysis of any kind. My subscribers require (and deserve) forward-looking, and with my intense focus on semiconductor chips, I don’t think my readers are surprised that semis are under pressure due to an increasingly important role.
I have repeated (perhaps too many times) that there is no way forward without the semis. We are seeing this manifest in automotive right now, but as investors, we should get used to hearing about semiconductor shortages.
You and I can debate Palantir, Snowflake or C3.AI, for example, and the valuations or the right angle for AI-driven software, but the common denominator to these companies is the need for semiconductors to drive forward AI and 5G.
Now, we add the enormous push for auto manufacturers to compete with Tesla, Apple, Lucid Motors and what we have is a bottle neck where the automotive industry filters into semiconductors.
My guess is the demand won’t be letting up for many years as we are no longer in the cyclical pattern that semis are notorious for. Instead, demand will outpace supply for years to come.
Is this a bad thing or a good thing for our stocks? As investors, we can either listen to the news or listen to management. In this case, they are not aligned. Machines trade off news and natural language processing (NLP) but as human investors, we have the advantage of looking deeper into the issues.
I have written volumes of analysis leading up to the triple-digit growth we are seeing now in the data center from AI accelerator chips. Most of this was written when data center growth was negative. For instance, my Nvidia thesis was set end of 2018 — and in 2019 Nvidia reported negative data center revenue year-over-year for four quarters in a row.
I mention this because following a trend’s trajectory is more important than immediate gratification from the market. The trend will always win out over time.
I have maintained that chips will eventually lead the AI market and are the best angle for investing in edge computing. I have also defended our stocks against custom silicon. Now we have the first of what I predict will be many semiconductor shortages and bullish to me.
The shortage is that there are hundreds (thousands really) of companies that rely on semiconductors. This will come to a head with AI and 5G as those who go-to-market soon with these features will have an enormous competitive advantage.
Below, we will first look into the supply shortage as it pertains to the automotive industry. We will then discuss earnings and management statements from Qualcomm, Atomera, Nvidia and Lam Research.
Our goal is to see 60% or higher returns in these names. We have chosen semis as our foundational hedge and you can consider cloud software along with semis on risk/reward ratio. We understand the market has conditioned some investors to see very large gains in a short period of time. This is a mirage produced from quantitative easing, and now more than ever, we want quality companies that have a solid bottom line in our portfolio to protect us long-term. This also allows us to take moonshots with SPACs and other high-growth names comfortably.
Regarding the supply shortage, the last thing we are interested in doing is disrupting our long-term thesis for a short-sighted bump in the road. I explain why I think this is short-sighted and why we continue to be long NVDA, AMD, QCOM and LCRX. We are also long MRVL although earnings will occur after this blog is released.
Reference:
5G PDF
Qualcomm Blog
Atomera PDF
Atomera Update
Nvidia PDF
Nvidia Update July 2020
Lam Research PDF
Please search by stock ticker here for any additional research including Knox’s trade setups.
Background on Automotive Semiconductors
We’ve discussed the AI semi market growing at about 45% CAGR over the next few years. The 5G chip market has an even higher CAGR of 63%. However, automotive is forecast for a smaller growth rate of 10.7% CAGR.
Therefore, anything automotive-specific is not central to our thesis. However, semiconductor components in the automotive sector will add an additional 600 USD for each vehicle by 2022, according to Deloitte. This is a nice boon for Nvidia and Qualcomm. Xilinx also has exposure to the automotive segment. (These are the stocks we cover although there are others of interest in the semiconductor category).

ADAS leads the growth over a five-year period with semiconductor content that will add USD 100 for partial automation and up to 400 USD for a higher level of automation. Full automation will add USD 550.
Today, automotive semiconductors are primarily driven by microcontrollers (MCUs), sensors and memory. Over the next decade, electric vehicles, automation, digital connectivity and security will drive greater demand from this sector.
ADAS (advanced-driver assisted systems) are forecast to grow by 23.1% between 2017-2022 which drives demand for integrated circuits and MCUs. EV/HEV (electric vehicles and hybrid) are forecast to grow by 21% between 2017-2022 and Infotainment by 8.2%.

Source: Deloitte
Automation requires about 30 sensors for the most advanced autonomous driving at Level 5. The industry is developing more advanced microcontrollers and MPUs to handle and process the sensor data so the vehicles think/act like humans. For EVs, sensors and controls are required to run the engine efficiently.
The primary suppliers for automotive semiconductors include: Nvidia, NXP/Freescale, Renesas, Panasonic, Toshiba, Infineon, STMicro, Texas Instruments, Broadcom/Avago, AMD/Xilinx and Samsung. Intel/Mobileye is also a leader in automotive and automation.
Automotive chips are not as constrained by size although some are expanding their system-on-chip (SoC) platforms to the 7nm and 5nm size. However, the failure rate must be lower for automotive than mobile with a target of 0 failure rate compared to a target of less than 10% failure rate on mobile. Automotive chips must also tolerate high voltages and operate at a wider range of temperatures.
The specifications for integrated circuits and MCUs/MPUs are more stringent with expectations the chips will last 20 to 30 years compared to only four years for mobile.
Semiconductor foundries are required to achieve higher quality and yield; yet long-term reliability, or “latent reliability,” can be hard to achieve as components must perform on the road under normal wear and tear including electromagnetic interference, which can be hard to simulate.
Basically, automotive requires more R&D at the foundry level.
On a side note, we had initiated in Luminar and ultimately closed the position. LiDAR will continue to test investors as there are many new entrants and the technology is very expensive with dynamic range still unsolved for and requiring backup cameras/sensors. The cost of LiDAR has caused some companies, such as Mobileye, to start LiDAR development in-house to lower this cost once higher volume production begins. My best guess is Apple will do the same in future years.
Whether tech will own the AV/EV space or if traditional automakers will transition to own the space is still up for debate. My guess is that tech will lead again as autos are headed towards having operating systems in the vehicle. Autonomous driving is also an incredibly hard problem to solve and has nothing in common with the traditional mechanics of combustion engines.
Chip Shortage Update:
Automotive accounts for 10% of the semiconductor industry.
According to Alix Partners, the chip shortage may cut $60.6 billion in revenue from the global automotive industry this year across the whole supply chain.
One reason that automotive is being hit harder than cloud, for example, is because automakers halted orders on car parts between March and May of last year including chips as showrooms were closed. This was compounded by the sharp rebound we’ve seen since the summer and especially during the holidays.
The plant at Asahi Kasei Microdevices is still down following a fire in October, which affects advanced sensing devices used in automotive. This also contributed to the shortage.
There is some disagreement between what the news is saying about the chip shortage lasting through 2021, and what various management teams are saying about the chip shortage, which is the worst is over and the respective companies will meet or exceed this year’s guidance.
General Motors recently stated the situation has gotten better for them with CFO Paul Jacobson stating last week, “Over the last couple of weeks as we talked about this being a volatile situation, we’ve actually seen the situation get better. At this point, I would say that we’re highly confident about being able to hit our guidance that we put out to the Street.”
GM had temporary closed car and crossover plants in Kansas, Canada, and Mexico through mid-March yet Jacobson went on to add, “We feel confident that we’re working through this issue and that we’ll be able to return to normal as soon as the back half of this year … and a high degree of confidence that this isn’t going to be an issue for us going forward.”
Audi had to furlough 10,000 employees, yet CEO Markus Duesmann said the overall output for 2021 wouldn’t be affected as the company expects to make up for lost time in the second half.
According to Sony and the availability of the PS5, the President and CEO said, “It will get better every month throughout 2021,” he said. “The pace of the improvement in the supply chain will gather throughout the course of the year, so by the time we get to the second half of [2021], you’re going to be seeing really decent numbers indeed.”
Earlier this month, Senator Tom Cotton published a report entitled Beat China that points towards the weak supply stance for the United States as a matter of military and commercial importance. The wafer fabrication capacity of the United States is at 11% of global share down from 33% in 1990. South Korea currently leads with 25%, Taiwan at 22%, Japan at 16% and China at 14%
China’s rival to advanced CPUs in the United States is the HiSilicon Kirin 9000 designed in China, yet due to sanctions on Huawei, is not able to be developed. China’s chip foundry is Semiconductor Manufacturing International Corporation (SMIC) and is also on the blacklist. SMIC is capable of producing 14nm and has plans to produce 7nm chips, whereas competitors are already releasing 5nm chips. As of 2019, China was importing 90% of its chips.

Source: Gartner
Washington and special interest groups are concerned that China will surpass the United States in supply, and later in the race towards AI and 5G. For example, China has built the world’s largest 5G network with 720,000 5G base stations.

Source: https://macropolo.org/china-chips-semiconductors-artificial-intelligence/?rp=m
Qualcomm
By most standards, Qualcomm had an excellent earnings report. The blemish that sent the stock reeling at a 15% drawdown was the $40 million miss in revenue. Management had guided for 62% forward growth for this quarter of $8.20 billion at the midrange yet analyst consensus was 63% revenue growth, which became a top line miss at $8.23 billion in revenue compared to $8.27 billion expected. Margins expanded 900 basis points to 29%.
When a company meets management guidance yet narrowly misses analyst consensus, I tend not to be too concerned.
As stated, Qualcomm reported adjusted revenue of $8.23 billion compared to $8.27 billion estimated with sales up 63%. The company beat on earnings with adjusted EPS of $2.17 compared to $2.10 estimated, representing growth of 119%.
Chip sales grew 79% year-over-year to $4.22 billion and RF front-end chips used for 5G and modems were up 157% year-over-year.
Qualcomm’s RF products have crossed $1 billion in revenues. Qualcomm is now one of the largest radio frequency suppliers in the smartphone ecosystem, supporting end-to-end product applications, including 4G, 5G sub-6 bands, and 5G millimeter bands.
Automotive grew 44% to $212 million. The automotive pipeline has grown to $8.3 billion, up from $3 billion three years ago intending to reach $1.5 billion in automotive revenues by 2024. Qualcomm offers 4G LTE and 5G connected driving experiences with V2X, WiFi and Bluetooth to connect vehicles to the cloud. There are 150 million vehicles that use Qualcomm modems. The company is expanding into computer vision, AI and multi-sensor processing for the fourth-generation automotive platform to be used by GM, Google, LG and Panasonic.
IoT grew 48% and passed the $1 billion threshold. The company is also a leader in XR (AR/VR) and indoor/outdoor WiFi 6 connectivity.
Management guided for $7.2 billion to $8 billion in sales in the current quarter, which was higher than analyst expectations, or 46% growth at the midpoint. The company is guiding for adjusted EPS of $1.55 to $1.75 for the next quarter, representing 88% growth at the midpoint.
Qualcomm has over 800 designs using their 5G modems and RF solutions.
The company had estimated 225 million 5G handsets to be sold in 2020. The overall number of handsets declined 12% in 2020 across 3G, 4G and 5G. For calendar 2021, the company estimates 450 million to 550 million 5G handsets to be sold and for overall number of handsets to grow in the “high single-digits year-over-year.” The model expects COVID to affect the first half of the year with a second-half recovery.
Huawei expands Qualcomm’s serviceable market by about 16%, according to management on the earnings call.
From the earnings call, I tend to agree with this analyst who commented on the impressive RF growth and whether this will continue, which the new CEO indicates it will:
Joe Moore (analyst)Joe Moore (analyst)
Great. Thank you. I wonder if you can give us color on the growth in RF being so impressive when you look at 5G units potentially kind of more than doubling, when you look at millimeter-wave really at one customer and one region. I’m just surprised at how robust December is and kind of can you talk to the sustainability of those revenue levels and the growth drivers going forward.wonder if you can give us color on the growth in RF being so impressive when you look at 5G units potentially kind of more than doubling, when you look at millimeter-wave really at one customer and one region. I’m just surprised at how robust December is and kind of can you talk to the sustainability of those revenue levels and the growth drivers going forward.
Cristiano Amon (incoming CEO)Cristiano Amon (incoming CEO)
Hi, Joe, it’s Cristiano. Yes, it’s very consistent to what we have been saying since the beginning of 5G. We saw 5G as an entry point for us. We have a highly differentiated solution with our modem-to-antenna platform and all of those designs. I think we updated the design count now 5G is in excess of 800 designs. They all contain 5G RF front-end components.
Also we like that it’s very diversified RF front-end revenues across our customers, also with a lot of sub-6, it’s not only millimeter-wave, even though we are very happy with the expansion prospects of millimeter-wave and that’s definitely an accelerator for Qualcomm.
So, it’s a business which is now one of the fastest-growing [businesses] we have. We’re happy we achieved the threshold of $1 billion and we’ll continue to grow as we grow 5G.
There were many hints on the earnings call that Qualcomm should have a strong 2021 performance. First, the company is expecting 5G handsets to double year-over-year in addition to overall handsets recovering from negative growth to single-digit growth. The company is also supplying both Apple and Huawei and has inroads to new market opportunities, such as IoT and automotive.
So, really what our guidance — just to reiterate it, we are saying the market was down 12%, 2019 to 2020 — calendar 2019 to calendar 2020 and would grow in high single-digits from 2020 to 2021 and this reflects kind of continuing COVID impact in the first half and then recovery in the second half.
Really within that market, what’s the critical driver for us is how 5G plays out. And so if you look at our 5G forecast, we’re expecting it to go up from 225 million in calendar 2020 to a midpoint of 500 million. So, very strong growth and that’s kind of the key driver for us in terms of how our revenue expands on the chip side.And so if you look at our 5G forecast, we’re expecting it to go up from 225 million in calendar 2020 to a midpoint of 500 million. So, very strong growth and that’s kind of the key driver for us in terms of how our revenue expands on the chip side.
And then maybe last thing I’ll point out is to Cristiano’s comment earlier, Huawei has been a very large OEM and it was — really from a chip perspective, it was mostly high silicon that was satisfying their demand.
Now, with the change in the market, we have kind of 16% of the market that was not available to us before being available. So, as we kind of look further out, we see this as a pretty material expansion of SAM for us., we have kind of 16% of the market that was not available to us before being available. So, as we kind of look further out, we see this as a pretty material expansion of SAM for us.
Nuvia Acquisition:
In January, Qualcomm announced plans to buy Nuvia, a company working on a core CPU design which can be used broadly in smartphones, next-gen laptops, infotainment systems and driver-assistance systems among other applications. The deal could lessen Qualcomm’s reliance on Arm should the Nvidia-Arm acquisition go through.
Nuvia uses Arm’s architecture but utilizes custom designs. The use of custom core designs through the Nuvia acquisition could improve margins for Qualcomm.
Nuvia was founded by “former star chip designers” from Apple and Google. The founders have worked on a combined 20 chips including Apple’s A-series microarchitectures that power the iPhone and iPad. Between them, the team also has more than 100 patents for their work in silicon. Although very little is disclosed about the stealth company and its chips, the general understanding is that the Nuvia team aims to bring the power-efficiency of mobile to the data center and in-between (i.e., edge computing).
Please note – many articles will state this is about competing with Apple’s M1 but I believe this is about Qualcomm’s desire to control the 5G market on other edge devices beyond laptops.
The management hints towards the Nuvia acquisition being much more forward-looking than PCs:
Our commitment to our high-performance processor roadmap was reflected in our recently announced proposed acquisition of NUVIA. We look forward to combining NUVIA’s world-class CPU and technology design team with Snapdragon to enable our ecosystem of customers to redefine computing performance, drive innovation, and deliver a new class of products and experiences for the 5G era.and deliver a new class of products and experiences for the 5G era.
QCOM comments on Supply Constraints:
Here is what Qualcomm said about supply constraints:
Qualcomm: Notably, our strong performance and outlook would have been even stronger had we not been supply constrained.
We are executing extremely well in our strategy to address many of the technical challenges of delivering a true modem-to-antenna 5G experience and capture a higher dollar share of content in smartphones.
This process continues through the successive releases of 5G currently under development as our foundational innovations, coupled with our ability to implement 5G in products and coordinated deployment in new verticals, continues to drive progress outside the handset industry.
Qualcomm believes the shortage will normalize by the second half of the year:
And in your opening remarks, you mentioned that revenue would have been higher if not for the shortages. Could you help us to quantify that some and then perhaps talk about the next couple of quarters, how that may play out if you recapture some of the business that you weren’t able to ship in the December quarter and how that proceeds?
Cristiano AmonCristiano Amon
Hi, Chris, this is Cristiano. Yes, happy to address. We have seen, I think, probably shortage across the entire industry. There is a couple of factors driving that. One is V-shaped recovery, I think, across many of the sectors that were present now. We saw acceleration of digital transformation also consistent with this trend of the enterprise transformation of their home.
And especially for Qualcomm and QCT, we have seen an opportunity with the expansion of addressable market. Huawei represent — or it represented 16% of the market that becomes available to us across all of our OEMs.
So, that’s driving a situation that demand is outpacing supply. We’re happy what we see right now on the premium tier, for example. In high tier, we see share gains in fiscal 2021 and we expect the situation to normalize towards the second half of the year.
Atomera
Atomera is still an all-or-nothing proposition and the recent earnings report saw a sell-off in the stock as the market attempts to figure out the company that executed the JDA.
The company started the earnings call immediately addressing the JDA with this quote. The only clue we were given is that it’s a foundry (or a company with a fab plant but probably the former):
“The JDA we recently announced marks a major milestone for Atomera, including a manufacturing license which will enable our customer to deposit MST film on its wafers in its own fab positioning them for fast integration and transition to production. Our release of MSTcad V1.0 simplifies customer evaluation of MST, which should extend our reach to new customers and technologies and shorten time to revenuewhich will enable our customer to deposit MST film on its wafers in its own fab positioning them for fast integration and transition to production. Our release of MSTcad V1.0 simplifies customer evaluation of MST, which should extend our reach to new customers and technologies and shorten time to revenue” -Scott Bibaud, President and CEO.
The company is pre-revenue at $0 in the fourth quarter of 2020 compared to $138,000 in the year-ago quarter. The company incurred a net loss of ($3.9) million or ($0.19) EPS. The losses were essentially the same a year-ago.
Fiscal year 2020 saw revenue of $62,000 compared to $533,000 in fiscal 2019. Net loss was ($0.79) EPS compared to ($0.84) in fiscal 2019.
The company had $37.9 million in cash and cash equivalents as of December 31st and completed an at-the-market equity offering to raise $24.2 million in cash through the sale of shares.
The company is guiding for $400,000 in Q1 revenue. Management states this is based on payments under the JDA, which could slip from Q1 to Q2.
Here is the exact statement: “We anticipate that our Q1 revenue will be $400,000 based on payments under the JDA. However, the recognition of this revenue will depend on future events and therefore could slip from Q1 into Q2. The JDA includes other milestones that could result in additional revenue in later periods, but we’re not in a position to forecast the timing or likelihood of those milestones.”However, the recognition of this revenue will depend on future events and therefore could slip from Q1 into Q2. The JDA includes other milestones that could result in additional revenue in later periods, but we’re not in a position to forecast the timing or likelihood of those milestones.”
In the opening remarks by the management, they stated they would disclose the customer once payment was received, which looks like it should be Q1 or Q2. This is likely why we saw a bounce in the stock following the sell-off.
Here is another comment about timing of disclosure by the CEO:
“On the Phase 4, in my remarks I mentioned, we’ll show a Phase 4 when we deliver IP to this first JDA customer. I think it corresponds closely with Francis’ comments on revenue. We expect — we probably expect it to happen this quarter, but it will happen near the quarter edge, so it could go into next quarter, but not very far away.”We expect — we probably expect it to happen this quarter, but it will happen near the quarter edge, so it could go into next quarter, but not very far away.”
Guidance for adjusted operating expenses in FY2021 is in the range of $14 million to $14.5 million driven by 300mm tool costs, engineers and GMA expenses.
Here are some additional comments that management made in regards to the Phase 4 JDA:
In January, we were able to announce a newly completed JDA with a major semiconductor company who is one of our existing Phase 3 customers. This is evidence of Atomera delivering on a critical step towards commercializing MST. This JDA will result in the first customer moving to Phase 4, since our agreement includes a manufacturing license, which gives our customer the right to install our process and deposit MST on wafers in their own fab.since our agreement includes a manufacturing license, which gives our customer the right to install our process and deposit MST on wafers in their own fab.
As you can see, our pipeline does not yet show them in Phase 4 because they have not met our strict criteria yet. For a customer to enter into Phase 4, we must have delivered to them our MST IP transfer package, which is typically done when the customer’s tool is properly configured, and we have received payment. At that point, we will update the status on our customer engagement chart.At that point, we will update the status on our customer engagement chart.
The company also highlighted specific ways MST can help the 5G market:
Our improved ability to combine MST CAD modeling with internal wafer runs has helped us bring both technologies closer to production worthiness. Today, we are witnessing growth of a new market in the rollout of 5G cellular. MST SP is targeted primarily at products that are battery-operated and RF SOI brings new design options for 5G front-ends.
As the large manufacturers of 5G cellular devices seek out ways to achieve competitive advantage, Atomera’s MST will be one of the options that can provide them with a leg up. This is the type of market transition which allows new technologies like ours to get a foothold and start expanding.
The company also discussed that work will begin soon on 300mm and 200mm wafers, which will help with the advanced nodes and lead to a higher average sales price. Over 65% of the semiconductor market uses 300mm wafers.
Epi deposition work by Atomera engineers in our new facility has been underway for the last few months, allowing us to get a running start qualifying MST on our new epi tool. We are very excited to take full possession of this instrument so we can accelerate our customer work on both 300 millimeter and 200-millimeter wafers with a fully state-of-the-art setup.
Perhaps most importantly, this is what management said about the semiconductor shortage:
“And one of the things that’s being experienced by the automotive industry, as you said, they’re having shortages on these analog products, among others. But really, I think one of the big things holding them back are the analog solutions, they tend to be manufactured on older production nodes that are using 200-millimeter wafers.
Now, the challenge there is that people built these factories for 200-millimeter wafers decades ago. And they can’t expand them anymore very easily. And even if they could build a new fab, they have a hard time getting a supply of the of the processing tools that are needed to make 200-millimeter wafers because it just not made anymore, everybody’s using 300 millimeter. So one of the things that MST can do is, we can actually take a product designed on a 200 millimeter wafer, and we can help them improve the performance to a point where they could shrink the devices, maybe get something like a 20% or 25% shrink opportunity. What that means is that every single wafer would be able to make 25% more capacity. So for a manufacturer, that means it could get 25% more capacity out of a fab without having to add a whole bunch of new equipment and so forth.Now, the challenge there is that people built these factories for 200-millimeter wafers decades ago. And they can’t expand them anymore very easily. And even if they could build a new fab, they have a hard time getting a supply of the of the processing tools that are needed to make 200-millimeter wafers because it just not made anymore, everybody’s using 300 millimeter. So one of the things that MST can do is, we can actually take a product designed on a 200 millimeter wafer, and we can help them improve the performance to a point where they could shrink the devices, maybe get something like a 20% or 25% shrink opportunity. What that means is that every single wafer would be able to make 25% more capacity. So for a manufacturer, that means it could get 25% more capacity out of a fab without having to add a whole bunch of new equipment and so forth.
So yes, I would say this is something that it’s not going to probably help the manufacturers in the very near term. But long term, I think it’s going to be a continuing problem, and our technology really provides a good solution for it.”
Lam Research
This was a record quarter for Lam and next quarter is expected to be another record quarter. The CEO made comments in the recent earnings call that reflect my understanding of the opportunity ahead of the semiconductor industry:
While today’s absolute levels of WFE are significantly higher than a few years ago, we believe the rapid digitization of the global economy combined with rising capital intensity due to greater process complexity supports robust multi-year WFE spending. In fact, if there’s a common theme that underpins our outlook for the next several years, it is that sustainable growth throughout the semiconductor value chain will be driven by the proliferation of artificial intelligence, high performance computing, IoT, 5G, and the incredible societal advances and user experiences these technologies enable.it is that sustainable growth throughout the semiconductor value chain will be driven by the proliferation of artificial intelligence, high performance computing, IoT, 5G, and the incredible societal advances and user experiences these technologies enable.
We expect strong demand from a diverse set of end-use markets to positively impact semiconductor and semiconductor equipment growth in 2021 and beyond.expect strong demand from a diverse set of end-use markets to positively impact semiconductor and semiconductor equipment growth in 2021 and beyond.
To illustrate, management spoke about gaming as a category expected to grow at 50% CAGR. The number of consoles shipped is much less than mobile, however, the GPU is four times the size with 2X the DRAM bits, leading to a 5% upside for Lam and $500 million incremental WFE (wafer front end equipment).
Management also discussed 5G as a driver with 5% incremental demand in 5G resulting in $1 billion of incremental WFE. Management went on to say, “It is demand drivers such as these that have strengthened our conviction around the sustainability of WFE spending over a multi-year period.”
Because Lam is a supplier, the company predicts spending will be biased towards the first half of 2021. One drawback to Lam is the company’s dependency on China, which represents 30% of revenue and something we have to continually monitor. China is a big consumer of NAND and DRAM with $10 billion in spend last year.
Lam Research has one of the best bottom lines of any company in the technology industry. The company reported EPS of $6.03 in the current quarter compared to analyst expectations of $5.64. In the year-ago quarter, Lam reported EPS of $4.01. Revenue came in at $3.46 billion, up 33.78% from $2.58 billion a year ago.
Management guidance for the upcoming quarter is higher at $3.7 billion with EPS of $6.47 which beat analyst estimates of $3.31 billion with EPS of $6.55. the current analyst estimates have been revised to reflect management guidance.
Gross margin in the current quarter was 46.4% and management is guiding for gross margin of 46% in the upcoming quarter.
Lam is expected to close fiscal year 2021 that ends in June with $13.9 billion in revenue, representing top line growth of roughly 40% up from $10.04 billion. For the fiscal year 2021, EPS is estimated to be $24.77 for growth of 66%, up from $15 EPS in FY2020.
Nvidia
Similar to Lam, the management from Nvidia outlined many edge cases that will continue to drive growth for the semiconductor industry including the strength in hyperscalers from the adoption of AI, deep learning recommendations across the internet and ecommerce, and the industrial data center, which includes things like weather simulation, genomics, molecular dynamics simulation, quantum chemistry, and simulating quantum computing.
On the industrialization of AI, the company is working with 7,000 startups plus corporations like John Deere and Wal-Mart on robotics machines. Jensen Huang compared this to the smartphone where the connected device will continually improve with AI the way applications continually the mobile device.
The third phase is the industrialization of AI. And some of the great examples when I say in terms of smartphone moment, I meant that it’s a device with AI, it’s autonomous and it’s connected to a cloud service, and it’s continuously learning. So some of the exciting example that I saw, that I’ve seen and we’re working with companies all over the world, we have some 7,000 AI startups that we’re working with, and almost all of them are developing something like this. And large industrial companies whether it’s John Deere or Walmart, they’re all developing applications kind of like this.
… They’re not going to just be products that you buy and use from that point forward, but it likely be a connected device with an AI service that runs on top of it.
The company acknowledged the industry was supply constrained but that due to proper planning, Nvidia will not see the effects in its data center segment. However, the market is timid regarding management’s statements that gaming will drive the majority of the growth sequentially.
Nvidia posted revenue of more than $5B for the first time, up approximately 61% YoY, beating expectations by $180M.
Adjusted EPS of $3.10 beat by $0.29. GAAP EPS of $2.31 beat by $0.33.
Gaming and Data Center also hit new records. Gaming saw $2.5B in sales, up 67% YoY, and data center sales hit $1.9B, up 97% YoY.
For the full year, revenue was $16.68B, up 53% YoY. GAAP earnings was $6.90, up 53% YOY. Adjusted earnings per diluted share was $10, up 73% YoY.
The company also provided strong guidance, with revenue of $5.3B, plus or minus 2%, versus expectations of $4.51B.
Gaming has become an integral part of global culture and will remain robust going forward, said Nvidia Executive Vice President and CFO Colette Kress during the call. She also expressed optimism about growth in virtual experiences, data center, and AI.
“We are on the cusp of a new age in which AI fuels industries ranging from healthcare to scientific research to the environment,” Kress said. “With this transaction, our vision is to boost Arm’s potential so it can thrive in this new era and grow into promising new markets.”